Sense amplifier for mask read only memory

ABSTRACT

A sense amplifier for Mask Read Only Memory comprising a multiplexer, a plurality of comparators, a plurality of first selected transistors, and a plurality of second selected transistors. The gates of both first selected transistor and second selected transistor are connected to a word line select. One doping area of the first selected transistor is connected to the multiplexer for generating a plurality of signals, and another doping area is connected to a selected bit line. One doping area of each of the second selected transistor is connected to each of the comparators, and another doping area is connected to an external voltage. A cell voltage status is determined when each of the signals and one of doping areas of the second selected transistors are connected to each of the comparators.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a sensor for Mask Read Only Memory (Mask ROM), and more particularly to a multilevel cell memory (MLC) sensor for Mask Read Only Memory.

2. Description of the Prior Art

Mask Read Only Memory (Mask ROM) generally comprises a plurality of cell transistors. Each cell transistor is used as a memory unit. When programming is required, ions are implanted into the channel area of selected memory cells in order to adjust the threshold voltage of the memory cell. Therefore, On and Off statuses of each of memory cell are set. Generally speaking, whenever a word line (WL) passes through a bit line (BL), a memory cell is built. The memory cell is formed in the covered area of the word line between two adjacent bit lines. Each memory cell can store two bit data by “0” or “1” logic levels, depending on whether the doping is implanted into the channel area of memory cell or not.

A multilevel cell memory is comprised of multilevel cells, each of which is able to store multiple charge states. Each charge state is associated with a memory element bit pattern. For example, the memory element bit pattern “00” is associated with level 3, the memory element bit pattern “10” is associated with level 2, the memory element bit pattern “01” is associated with level 1, and the memory element bit pattern “11” is associated with level 0.

However, when Mask ROM is involved in deep sub-micro semiconductor processing, the integration of the IC tends to be higher and the size of the semiconductor device tends to be smaller. When ions are implanted into the channel area of selected memory cell, the location of the doping area may not be aligned and the threshold voltage of the transistor may be shifted. Parasitic resistance and substrate effects of the bit line may cause memory cell reading the current variation.

SUMMARY OF THE INVENTION

The present invention provides a sense amplifier for Mask Read Only Memory (Mask ROM), which uses the reference memory cell architecture in order to prevent the selected bit line from inappropriately reading the current.

The present invention provides a sense amplifier for Multilevel Mask ROM, which compares the reference memory cell and the bit line signal in order to increase the accuracy of reading the current.

To achieve the aforementioned objects, an embodiment of the present invention provides a sense amplifier for Mask Read Only Memory (Mask ROM), which comprises a multiplexer, a plurality of comparators, a plurality of first selected transistors, and a plurality of second selected transistors. The gates of both first selected transistor and second selected transistor are connected to the word line select. One doping area of the first selected transistor is connected to the multiplexer for generating a plurality of signals, and another doping area is connected to a selected bit line. One doping area of each second selected transistor is connected to each of the comparators, and another doping area is connected to an external voltage. A cell voltage status is decided when each of the signals and one of the doping areas of the second selected transistors are connected to each of comparators.

Other advantages of the present invention will become apparent from the following description taken in conjunction with the accompanying drawings wherein are set forth, by way of illustration and example, certain embodiments of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention. In the drawings,

FIG. 1 is a diagram illustrating a sense amplifier for Mask Read Only Memory in accordance with an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

While the present invention may be embodied in many different forms, there is shown in the drawing and discussed herein a few specific embodiments with the understanding that the present disclosure is to be considered only as an exemplification of the principles of the invention and is not intend to limit the invention to the embodiments illustrated.

Referring to FIG. 1, a sense amplifier for Mask Read Only Memory is shown. In the present invention, a reference cell column is arranged between the selected bit line (selected BL). The selected BL and the reference cell column respectively contain a plurality of transistors. As shown in FIG. 1, the gates of transistors BS1, BS2, and BS3 on the selected BL, and the gates of transistors BR1, BR2, and BR3 on the reference cell column are connected to a bank select (BS). The gates of transistors WS1, WS2, and WS3 on the selected BL, and the gates of transistors WB1, WB2, and WB3 on the reference cell column are connected to a word line select (WLS).

There are two doping areas of transistors BS1, BS2, and BS3, for example, the source and the drain. One end of the doping area is from the core cell array, and another end of the doping area is connected with one doping area of transistors WS1, WS2, and WS3, respectively, for example, the source and the drain are connected together. One advantage of the present invention is that another doping area of transistors WS1, WS2, and WS3 respectively are connected to a multiplexer for generating multiple signals M1, M2, and M3. The multiple signals M1, M2, and M3 and another doping area of transistors WB1, WB2, and WB3 respectively enter the comparators Cm1, Cm2, and Cm3 in order to determine how much the potential status is, for example, “002 , “01”, “10” and “11”. The potential status result is transmitted to an I/O register.

For Multilevel Mask ROM, due to the parasitic buried bit line resistance and the body effect, reading the current is easily affected by the position of the memory cell in the memory array. One advantage of the present invention is that the reference cell column architecture is used for comparing with the signal from the selected bit line when the transistors BR1, BR2, and BR3 of the reference cell column are connected with an external voltage, thereby reducing the effect by the selected bit line when sensing, in order to sense more accurately.

According to the present invention, a sense amplifier for Mask Read Only Memory is provided, which comprises a multiplexer, a plurality of comparators, a first selected transistors, and a second selected transistors, a plurality of third selected transistors, and a plurality of fourth selected transistors. The gates of both first selected transistors and third selected transistors are connected to a word line select. One doping area of the first selected transistor is connected to the multiplexer for generating a plurality of signals. The gates of both second selected transistors and fourth transistors are connected with a blank select. One doping area of the second selected transistor is connected to another doping area of the first selected transistor, and another doping area is connected to a selected bit line. One doping area of the third selected transistor is connected to each of the comparators. One doping area of each of the fourth selected transistors is connected to another doping area of each of the third selected transistors, and another doping is connected to an external voltage. When each of the signals and another doping of each of the third selected transistors are connected to each of comparators, a cell voltage status is decided.

The embodiment above is only intended to illustrate the present invention; it does not, however, to limit the present invention to the specific embodiment. Accordingly, various modifications and changes may be made without departing from the spirit and scope of the present invention as described in the following claims. 

1. A sense amplifier for Mask Read Only Memory, comprising: a multiplexer; a plurality of comparators; a plurality of first selected transistors having a plurality of first gates connecting to a word line select, a first doping area of each of the first selected transistors connecting to the multiplexer for generating a plurality of signals, a second doping area of each of the first selected transistors connecting to a selected bit line; and a plurality of second selected transistors having a plurality of second gates connecting to the word line select, a third doping area of each of the second selected transistors connecting to each of the comparators, a fourth doping area of each of the second selected transistors connecting to an external voltage, wherein a cell voltage status is determined when each of the signals and each of the third selected transistors are connected to each of comparators.
 2. The sense amplifier for Mask Read Only Memory of claim 1, further comprising a plurality of third transistors, wherein each of the first selected transistors is connected to the selected bit line by each of the third selected third transistors.
 3. The sense amplifier for Mask Read Only Memory of claim 3, wherein the plurality of third selected transistors has a plurality of third gates connecting to a bank select.
 4. The sense amplifier for Mask Read Only Memory of claim 1, further comprising a plurality of third transistors, wherein each of the second selected transistors is connected to the external voltage by each of the third selected transistors.
 5. The sense amplifier for Mask Read Only Memory of claim 3, wherein the plurality of third selected transistors has a plurality of third gates connecting to a bank select.
 6. A sense amplifier for Mask Read Only Memory, comprising: a multiplexer; a plurality of comparators; a first selected transistor having a first gate connecting to a word line select, a first doping area connecting to the multiplexer for generating a plurality of signals, and a second doping area; a second selected transistor having a second gate connecting to a bank select, a third doping area connecting to the second doping area of the first selected transistor, and a fourth doping area connecting to a selected bit line; and a plurality of third selected transistors having a plurality of third gates connecting to the bit line select, a fifth doping area of each of third selected transistors connecting to each of the comparators, and each of the third selected transistor having a sixth doping area; and a plurality of fourth selected transistors having a plurality of fourth gates connecting to the bank select, a seventh doping area of each of the fourth selected transistor connecting the sixth area of the third selected transistor, and an eighth doping area of the fourth selected transistor connecting to an external voltage, wherein a cell voltage status is determined when each of the signals and each of the fifth doping areas are connected to each of the comparators. 